Providing an experimental and numerical solution to meet the challenges described in NIST's "Roadmap Workshop on Measurement Science for Metal-Based Additive Manufacturing," ensuring the adoption of additive manufacturing to manufacturing industries.

Developed a low-cost micromilling machine using state-of-the-art hardware and software to create 3D parts with accuracies of 2 to 3 microns. The project also uses dimensional metrology techniques to ensure needed manufacturing accuracy.

Technical consulting and project development for the launch of a a technology development and investment firm that will improve the model for developing and advancing early-stage technological innovations into marketable products.

Develop an interactive virtual laboratory for a power generation system, create innovative teaching materials using the virtual laboratory and a prototype platform and engage college students in mentoring high school students on renewable energy technologies.

Progressing theoretical understanding and experimental development of "ultra-cold" relativistic electron beams at the fundamental limit via field emission from structured nanomaterials and subsequent efficient acceleration.

Devising an integrated high-current electron source that can be mounted in close proximity to a superconducting radiofrequency resonator, possibly leading to the development of a compact MW-class electron accelerator.

Develop an interactive virtual laboratory for a power generation system, create innovative teaching materials using the virtual laboratory and a prototype platform and engage college students in mentoring high school students on renewable energy technologies.

Dr. Coller has built a video game learning environment in which he has measured higher levels of student learning and student engagement. This project will test whether other engineering educators can produce similar results with the game and whether the game is a viable and attractive tool for educators.